Bongers T. 1990. The maturity index: an ecological measure of environmental disturbance based on nematode species composition. Oecologia, 83(1): 14-19
[2]
Bongers T. 1994. De Nematode van Nederland (2nd edition). Vormgeving en technische realisatie. Netherlands: Uitgeverij Pirola, Schoorl
[3]
Bongers T, van der Meulen H, Korthals G. 1997. Inverse relationship between the nematode maturity index and plant parasite index under enriched nutrient conditions. Applied Soil Ecology, 6(2): 195-199
[4]
De Goede RGM, Bongers T. 1994. Nematode community structure in relation to soil and vegetation characteristics. Applied Soil Ecology, 1(1): 29-44
[5]
Ferris H. 2010. Form and function: metabolic footprints of nematodes in the soil food web. European Journal of Soil Biology, 46(2): 97-104
[6]
Ge F, Li DM. 1997. Pest management in sustainable agriculture. Entomological Knowledge, 34(1): 39-45 (in Chinese) [戈峰, 李典谟. 1997. 可持续农业中的害虫管理问题. 昆虫知识, 34(1): 39-
[7]
Griffiths BS, Heckmann LH, Caul S, Thompson JA, Scrimgeour C, Krogh PH. 2007. Varietal effects of eight paired lines of transgenic Bt maize and near-isogenic non-Bt maize on soil microbial and nematode community structure. Plant Biotechnology Journal, 5(1): 60-68
[8]
H?ss S, Nguyen H, Menzel R, Pagel-Wieder S, Miethling-Graff R, Tebbe CC, Jehle JA, Traunspurger A. 2011. Assessing the risk posed to free-living soil nematodes by a genetically modified maize expressing the insecticidal Cry3Bb1 protein. Science of the Total Environment, 409(3): 2674-2684
[9]
Hu F, Li HX, Xie LQ, Wu SM. 1999. Interactions of bacterivorous nematode and bacteria and their effects on mineralization immobilization of nitrogen and phosphorus. Acta Ecologica Sinica, 19(6): 914-920 (in Chinese) [胡锋, 李辉信, 谢涟琪, 吴珊眉. 1999. 土壤食细菌线虫与细菌的相互作用及其对N、P矿化生物固定的影响及机理. 生态学报, 19(6): 914-
[10]
Li Q, Liang WJ, Jiang Y. 2007. Present situation and prospect of soil nematode diversity in farmland ecosystems. Biodiversity Science, 15(2): 134-141 (in Chinese) [李琪, 梁文举, 姜勇. 2007. 农田土壤线虫多样性研究现状及展望. 生物多样性, 15(2): 134-
[11]
Li XJ, Zhang ZG, Deng JX, Liu HY. 1998. Effects on soil ecological environment by no-tillage. Journal of Shandong Agricultural University, 29(4): 520-526 (in Chinese) [李新举, 张国志, 邓基先, 刘辉友. 1998. 免耕对土壤生态环境的影响. 山东农业大学学报, 29(4): 520-
[12]
Li XQ, Chen FJ, Liu MQ, CH XY, Hu F. 2012. Effects of two years planting transgenic Bt rice (BtSY63) on soil nematode community. Chinese Journal of Applied Ecology, 23(11): 3065-3071 (in Chinese) [李修强, 陈法军, 刘满强, 陈小云, 胡锋. 2012. 转基因水稻Bt汕优63种植两年对土壤线虫群落的影响. 应用生态学报, 23(11): 3065-
[13]
Liang WJ, Lavian I, Pen-Mouratov S, Steinberger Y. 2005b. Diversity and dynamics of soil free-living nematode populations in a Mediterranean agroecosystem. Pedosphere, 15(2): 204-215
[14]
Liang WJ, Lavian I, Steinberger Y. 1999. Dynamics of nematode community composition in a potato field. Pedobiologia, 43(5): 459-469
[15]
Liang WJ, Lavian I, Steinberger Y. 2001. Effect of agriculture management on nematode communities in a Mediterranean agroecosystem. Journal of Nematology, 33(4): 208-213
[16]
Liang WJ, Li Q, Jiang Y, Neher DA. 2005a. Nematode faunal analysis in an aquic brown soil fertilized with slow-releaseurea, Northeast China. Applied Soil Ecology, 29(2): 185-192
[17]
Liang WJ, Zhang WM, Li WG, Duan YX. 2001. Effect of chemical fertilizer on nematode community composition and diversity in the black soil region. Biodiversity Science, 9(3): 237-240 (in Chinese) [梁文举, 张万民, 李维光, 段玉玺. 2001. 施用化肥对黑土地区线虫群落组成及多样性产生的影响. 生物多样性, 9(3): 237-
[18]
Manachini B, Landi S, Flore MC, Festa M, Arpaia S. 2004. First investigations on the effects of transgenic Brassica napus L. on the trophic structure of the nematofauna. IOBC/WPRS Bulletin, 27(3): 103-108
[19]
Saxena D, Stotzky G. 2001. Bacillus thuringiensis (Bt) toxin released from root exudates and biomass of Bt corn has no apparent effect on earthworms, nematodes, protozoa, bacteria, and fungi in soil. Soil Biology and Biochemistry, 33(9): 1225-1230
[20]
Waliyar F, Ndunguru BJ, Sharma SB, Bationo A. 1992. Effect of liming and carbofuran on groundnut yield in sandy soils in Niger. Fertilizer Research, 33(3): 203-208
[21]
更多...
[22]
Xiao NW, Xie DY, Wang XX, Yan CH, Hu LL, Li JS. 2011. Effect of oil exploitation on soil nematode communities in Daqing Oilfield. Acta Ecologica Sinica, 31(13): 3736-3744 (in Chinese) [肖能文, 谢德燕, 王学霞, 闫春红, 胡理乐, 李俊生. 2011. 大庆油田石油开采对土壤线虫群落的影响. 生态学报, 31(13): 3736-
[23]
Yang B, Chen H, Liu XH, Ge F, Chen QY. 2014. Bt cotton planting does not affect the community characteristics of rhizosphere soil nematodes. Applied Soil Ecology, 73: 156-164
[24]
Yang B, Ge F. 2013. The applications of multivariate analysis in arthropod community analysis. Chinese Journal of Applied Entomology, 50(4): 1178-1189 (in Chinese) [杨兵, 戈峰. 2013. 多元统计方法在节肢动物群落分析中的应用. 应用昆虫学报, 50(4): 1178-
[25]
Yardim EN, Edwards CA. 1998. The effects of chemical pest, disease and weed management practices on the trophic structure of nematode population in tomato agroecosystems. Applied Soil Ecology, 7(2): 137-147
[26]
Yeates GW. 2003. Nematodes as soil indicators: functional and biodiversity aspects. Biology and Fertilizer of Soils, 37(4): 199-210
[27]
Yeates GW, Bongers T, De Goede RGM, Freckman DW, Georgieva SS. 1993. Feeding habits in soil nematode families and genera-an outline for ecologists. Journal of Nematology, 25(3): 315-331
[28]
Yin WY, Song DX, Tang J. 1998. Pictorical keys to soil animals of China. Beijing: Science Press, pp. 51-89 (in Chinese) [尹文英, 宋大祥, 唐觉. 1998. 中国土壤动物检索图鉴. 北京: 科学出版社, pp. 51-
[29]
Yuan YY, Ge F. 2014. The ecological risk of transgenic crops to soil arthropods. Chinese Journal of Applied Entomology, 51(5): 1143-1148 (in Chinese) [袁一杨, 戈峰. 2014. 转Bt基因作物对土壤节肢动物的生态风险性. 应用昆虫学报, 51(5): 1143-
[30]
Zhou JH, Tao J, Chen XY, Hu F, Li HX. 2008. Soil nematode density inside and outside a pesticide factory in Anhui. Biodiversity Science, 16(6): 613-617 (in Chinese) [周际海, 陶军, 陈小云, 胡锋, 李辉信. 2008. 安徽农药厂厂区及周边农田土壤线虫数量特征. 生物多样性, 16(6): 613-
